#include "All.h" #include "Prepare.h" const uint32 CRC32_TABLE[256] = {0u,1996959894u,3993919788u,2567524794u, 124634137u,1886057615u,3915621685u,2657392035u,249268274u,2044508324u, 3772115230u,2547177864u,162941995u,2125561021u,3887607047u,2428444049u, 498536548u,1789927666u,4089016648u,2227061214u,450548861u,1843258603u, 4107580753u,2211677639u,325883990u,1684777152u,4251122042u,2321926636u, 335633487u,1661365465u,4195302755u,2366115317u,997073096u,1281953886u, 3579855332u,2724688242u,1006888145u,1258607687u,3524101629u,2768942443u, 901097722u,1119000684u,3686517206u,2898065728u,853044451u,1172266101u, 3705015759u,2882616665u,651767980u,1373503546u,3369554304u,3218104598u, 565507253u,1454621731u,3485111705u,3099436303u,671266974u,1594198024u, 3322730930u,2970347812u,795835527u,1483230225u,3244367275u,3060149565u, 1994146192u,31158534u,2563907772u,4023717930u,1907459465u,112637215u, 2680153253u,3904427059u,2013776290u,251722036u,2517215374u,3775830040u, 2137656763u,141376813u,2439277719u,3865271297u,1802195444u,476864866u, 2238001368u,4066508878u,1812370925u,453092731u,2181625025u,4111451223u, 1706088902u,314042704u,2344532202u,4240017532u,1658658271u,366619977u, 2362670323u,4224994405u,1303535960u,984961486u,2747007092u,3569037538u, 1256170817u,1037604311u,2765210733u,3554079995u,1131014506u,879679996u, 2909243462u,3663771856u,1141124467u,855842277u,2852801631u,3708648649u, 1342533948u,654459306u,3188396048u,3373015174u,1466479909u,544179635u, 3110523913u,3462522015u,1591671054u,702138776u,2966460450u,3352799412u, 1504918807u,783551873u,3082640443u,3233442989u,3988292384u,2596254646u, 62317068u,1957810842u,3939845945u,2647816111u,81470997u,1943803523u, 3814918930u,2489596804u,225274430u,2053790376u,3826175755u,2466906013u, 167816743u,2097651377u,4027552580u,2265490386u,503444072u,1762050814u, 4150417245u,2154129355u,426522225u,1852507879u,4275313526u,2312317920u, 282753626u,1742555852u,4189708143u,2394877945u,397917763u,1622183637u, 3604390888u,2714866558u,953729732u,1340076626u,3518719985u,2797360999u, 1068828381u,1219638859u,3624741850u,2936675148u,906185462u,1090812512u, 3747672003u,2825379669u,829329135u,1181335161u,3412177804u,3160834842u, 628085408u,1382605366u,3423369109u,3138078467u,570562233u,1426400815u, 3317316542u,2998733608u,733239954u,1555261956u,3268935591u,3050360625u, 752459403u,1541320221u,2607071920u,3965973030u,1969922972u,40735498u, 2617837225u,3943577151u,1913087877u,83908371u,2512341634u,3803740692u, 2075208622u,213261112u,2463272603u,3855990285u,2094854071u,198958881u, 2262029012u,4057260610u,1759359992u,534414190u,2176718541u,4139329115u, 1873836001u,414664567u,2282248934u,4279200368u,1711684554u,285281116u, 2405801727u,4167216745u,1634467795u,376229701u,2685067896u,3608007406u, 1308918612u,956543938u,2808555105u,3495958263u,1231636301u,1047427035u, 2932959818u,3654703836u,1088359270u,936918000u,2847714899u,3736837829u, 1202900863u,817233897u,3183342108u,3401237130u,1404277552u,615818150u, 3134207493u,3453421203u,1423857449u,601450431u,3009837614u,3294710456u, 1567103746u,711928724u,3020668471u,3272380065u,1510334235u,755167117u}; int CPrepare::Prepare(const unsigned char* pRawData, int nBytes, const WAVEFORMATEX* pWaveFormatEx, int* pOutputX, int* pOutputY, unsigned int* pCRC, int* pSpecialCodes, int* pPeakLevel) { // error check the parameters if (pRawData == NULL || pWaveFormatEx == NULL) return ERROR_BAD_PARAMETER; // initialize the pointers that got passed in *pCRC = 0xFFFFFFFF; *pSpecialCodes = 0; // variables uint32 CRC = 0xFFFFFFFF; const int nTotalBlocks = nBytes / pWaveFormatEx->nBlockAlign; int R,L; // the prepare code if (pWaveFormatEx->wBitsPerSample == 8) { if (pWaveFormatEx->nChannels == 2) { for (int nBlockIndex = 0; nBlockIndex < nTotalBlocks; nBlockIndex++) { R = (int) (*((unsigned char *) pRawData) - 128); L = (int) (*((unsigned char *) (pRawData + 1)) - 128); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; // check the peak if (labs(L) > *pPeakLevel) *pPeakLevel = labs(L); if (labs(R) > *pPeakLevel) *pPeakLevel = labs(R); // convert to x,y pOutputY[nBlockIndex] = L - R; pOutputX[nBlockIndex] = R + (pOutputY[nBlockIndex] / 2); } } else if (pWaveFormatEx->nChannels == 1) { for (int nBlockIndex = 0; nBlockIndex < nTotalBlocks; nBlockIndex++) { R = (int) (*((unsigned char *) pRawData) - 128); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; // check the peak if (labs(R) > *pPeakLevel) *pPeakLevel = labs(R); // convert to x,y pOutputX[nBlockIndex] = R; } } } else if (pWaveFormatEx->wBitsPerSample == 24) { if (pWaveFormatEx->nChannels == 2) { for (int nBlockIndex = 0; nBlockIndex < nTotalBlocks; nBlockIndex++) { uint32 nTemp = 0; nTemp |= (*pRawData << 0); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; nTemp |= (*pRawData << 8); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; nTemp |= (*pRawData << 16); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; if (nTemp & 0x800000) R = (int) (nTemp & 0x7FFFFF) - 0x800000; else R = (int) (nTemp & 0x7FFFFF); nTemp = 0; nTemp |= (*pRawData << 0); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; nTemp |= (*pRawData << 8); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; nTemp |= (*pRawData << 16); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; if (nTemp & 0x800000) L = (int) (nTemp & 0x7FFFFF) - 0x800000; else L = (int) (nTemp & 0x7FFFFF); // check the peak if (labs(L) > *pPeakLevel) *pPeakLevel = labs(L); if (labs(R) > *pPeakLevel) *pPeakLevel = labs(R); // convert to x,y pOutputY[nBlockIndex] = L - R; pOutputX[nBlockIndex] = R + (pOutputY[nBlockIndex] / 2); } } else if (pWaveFormatEx->nChannels == 1) { for (int nBlockIndex = 0; nBlockIndex < nTotalBlocks; nBlockIndex++) { uint32 nTemp = 0; nTemp |= (*pRawData << 0); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; nTemp |= (*pRawData << 8); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; nTemp |= (*pRawData << 16); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; if (nTemp & 0x800000) R = (int) (nTemp & 0x7FFFFF) - 0x800000; else R = (int) (nTemp & 0x7FFFFF); // check the peak if (labs(R) > *pPeakLevel) *pPeakLevel = labs(R); // convert to x,y pOutputX[nBlockIndex] = R; } } } else { if (pWaveFormatEx->nChannels == 2) { int LPeak = 0; int RPeak = 0; int nBlockIndex = 0; for (nBlockIndex = 0; nBlockIndex < nTotalBlocks; nBlockIndex++) { R = (int) *((int16 *) pRawData); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; L = (int) *((int16 *) pRawData); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; // check the peak if (labs(L) > LPeak) LPeak = labs(L); if (labs(R) > RPeak) RPeak = labs(R); // convert to x,y pOutputY[nBlockIndex] = L - R; pOutputX[nBlockIndex] = R + (pOutputY[nBlockIndex] / 2); } if (LPeak == 0) *pSpecialCodes |= SPECIAL_FRAME_LEFT_SILENCE; if (RPeak == 0) *pSpecialCodes |= SPECIAL_FRAME_RIGHT_SILENCE; if (max(LPeak, RPeak) > *pPeakLevel) *pPeakLevel = max(LPeak, RPeak); // check for pseudo-stereo files nBlockIndex = 0; while (pOutputY[nBlockIndex++] == 0) { if (nBlockIndex == (nBytes / 4)) { *pSpecialCodes |= SPECIAL_FRAME_PSEUDO_STEREO; break; } } } else if (pWaveFormatEx->nChannels == 1) { int nPeak = 0; for (int nBlockIndex = 0; nBlockIndex < nTotalBlocks; nBlockIndex++) { R = (int) *((int16 *) pRawData); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *pRawData++]; // check the peak if (labs(R) > nPeak) nPeak = labs(R); //convert to x,y pOutputX[nBlockIndex] = R; } if (nPeak > *pPeakLevel) *pPeakLevel = nPeak; if (nPeak == 0) *pSpecialCodes |= SPECIAL_FRAME_MONO_SILENCE; } } CRC = CRC ^ 0xFFFFFFFF; // add the special code CRC >>= 1; if (*pSpecialCodes != 0) CRC |= (1 << 31); *pCRC = CRC; return ERROR_SUCCESS; } void CPrepare::Unprepare(int X, int Y, const WAVEFORMATEX* pWaveFormatEx, unsigned char* pOutput, unsigned int* pCRC) { #define CALCULATE_CRC_BYTE *pCRC = (*pCRC >> 8) ^ CRC32_TABLE[(*pCRC & 0xFF) ^ *pOutput++]; // decompress and convert from (x,y) -> (l,r) // sort of long and ugly.... sorry if (pWaveFormatEx->nChannels == 2) { if (pWaveFormatEx->wBitsPerSample == 16) { // get the right and left values int nR = X - (Y / 2); int nL = nR + Y; // error check (for overflows) if ((nR < -32768) || (nR > 32767) || (nL < -32768) || (nL > 32767)) throw(-1); *(int16 *) pOutput = (int16) nR; CALCULATE_CRC_BYTE CALCULATE_CRC_BYTE *(int16 *) pOutput = (int16) nL; CALCULATE_CRC_BYTE CALCULATE_CRC_BYTE } else if (pWaveFormatEx->wBitsPerSample == 8) { unsigned char R = (X - (Y / 2) + 128); *pOutput = R; CALCULATE_CRC_BYTE *pOutput = (unsigned char) (R + Y); CALCULATE_CRC_BYTE } else if (pWaveFormatEx->wBitsPerSample == 24) { int32 RV, LV; RV = X - (Y / 2); LV = RV + Y; uint32 nTemp = 0; if (RV < 0) nTemp = ((uint32) (RV + 0x800000)) | 0x800000; else nTemp = (uint32) RV; *pOutput = (unsigned char) ((nTemp >> 0) & 0xFF); CALCULATE_CRC_BYTE *pOutput = (unsigned char) ((nTemp >> 8) & 0xFF); CALCULATE_CRC_BYTE *pOutput = (unsigned char) ((nTemp >> 16) & 0xFF); CALCULATE_CRC_BYTE nTemp = 0; if (LV < 0) nTemp = ((uint32) (LV + 0x800000)) | 0x800000; else nTemp = (uint32) LV; *pOutput = (unsigned char) ((nTemp >> 0) & 0xFF); CALCULATE_CRC_BYTE *pOutput = (unsigned char) ((nTemp >> 8) & 0xFF); CALCULATE_CRC_BYTE *pOutput = (unsigned char) ((nTemp >> 16) & 0xFF); CALCULATE_CRC_BYTE } } else if (pWaveFormatEx->nChannels == 1) { if (pWaveFormatEx->wBitsPerSample == 16) { int16 R = X; *(int16 *) pOutput = (int16) R; CALCULATE_CRC_BYTE CALCULATE_CRC_BYTE } else if (pWaveFormatEx->wBitsPerSample == 8) { unsigned char R = X + 128; *pOutput = R; CALCULATE_CRC_BYTE } else if (pWaveFormatEx->wBitsPerSample == 24) { int32 RV = X; uint32 nTemp = 0; if (RV < 0) nTemp = ((uint32) (RV + 0x800000)) | 0x800000; else nTemp = (uint32) RV; *pOutput = (unsigned char) ((nTemp >> 0) & 0xFF); CALCULATE_CRC_BYTE *pOutput = (unsigned char) ((nTemp >> 8) & 0xFF); CALCULATE_CRC_BYTE *pOutput = (unsigned char) ((nTemp >> 16) & 0xFF); CALCULATE_CRC_BYTE } } } #ifdef BACKWARDS_COMPATIBILITY int CPrepare::UnprepareOld(int* pInputX, int* pInputY, int nBlocks, const WAVEFORMATEX* pWaveFormatEx, unsigned char* pRawData, unsigned int* pCRC, int* pSpecialCodes, int nFileVersion) { // the CRC that will be figured during decompression uint32 CRC = 0xFFFFFFFF; // decompress and convert from (x,y) -> (l,r) // sort of int and ugly.... sorry if (pWaveFormatEx->nChannels == 2) { // convert the x,y data to raw data if (pWaveFormatEx->wBitsPerSample == 16) { int16 R; unsigned char *Buffer = &pRawData[0]; int *pX = pInputX; int *pY = pInputY; for (; pX < &pInputX[nBlocks]; pX++, pY++) { R = *pX - (*pY / 2); *(int16 *) Buffer = (int16) R; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; *(int16 *) Buffer = (int16) R + *pY; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; } } else if (pWaveFormatEx->wBitsPerSample == 8) { unsigned char *R = (unsigned char *) &pRawData[0]; unsigned char *L = (unsigned char *) &pRawData[1]; if (nFileVersion > 3830) { for (int SampleIndex = 0; SampleIndex < nBlocks; SampleIndex++, L+=2, R+=2) { *R = (unsigned char) (pInputX[SampleIndex] - (pInputY[SampleIndex] / 2) + 128); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *R]; *L = (unsigned char) (*R + pInputY[SampleIndex]); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *L]; } } else { for (int SampleIndex = 0; SampleIndex < nBlocks; SampleIndex++, L+=2, R+=2) { *R = (unsigned char) (pInputX[SampleIndex] - (pInputY[SampleIndex] / 2)); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *R]; *L = (unsigned char) (*R + pInputY[SampleIndex]); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *L]; } } } else if (pWaveFormatEx->wBitsPerSample == 24) { unsigned char *Buffer = (unsigned char *) &pRawData[0]; int32 RV, LV; for (int SampleIndex = 0; SampleIndex < nBlocks; SampleIndex++) { RV = pInputX[SampleIndex] - (pInputY[SampleIndex] / 2); LV = RV + pInputY[SampleIndex]; uint32 nTemp = 0; if (RV < 0) nTemp = ((uint32) (RV + 0x800000)) | 0x800000; else nTemp = (uint32) RV; *Buffer = (unsigned char) ((nTemp >> 0) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; *Buffer = (unsigned char) ((nTemp >> 8) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; *Buffer = (unsigned char) ((nTemp >> 16) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; nTemp = 0; if (LV < 0) nTemp = ((uint32) (LV + 0x800000)) | 0x800000; else nTemp = (uint32) LV; *Buffer = (unsigned char) ((nTemp >> 0) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; *Buffer = (unsigned char) ((nTemp >> 8) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; *Buffer = (unsigned char) ((nTemp >> 16) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; } } } else if (pWaveFormatEx->nChannels == 1) { // convert to raw data if (pWaveFormatEx->wBitsPerSample == 8) { unsigned char *R = (unsigned char *) &pRawData[0]; if (nFileVersion > 3830) { for (int SampleIndex = 0; SampleIndex < nBlocks; SampleIndex++, R++) { *R = pInputX[SampleIndex] + 128; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *R]; } } else { for (int SampleIndex = 0; SampleIndex < nBlocks; SampleIndex++, R++) { *R = (unsigned char) (pInputX[SampleIndex]); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *R]; } } } else if (pWaveFormatEx->wBitsPerSample == 24) { unsigned char *Buffer = (unsigned char *) &pRawData[0]; int32 RV; for (int SampleIndex = 0; SampleIndex> 0) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; *Buffer = (unsigned char) ((nTemp >> 8) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; *Buffer = (unsigned char) ((nTemp >> 16) & 0xFF); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; } } else { unsigned char *Buffer = &pRawData[0]; for (int SampleIndex = 0; SampleIndex < nBlocks; SampleIndex++) { *(int16 *) Buffer = (int16) (pInputX[SampleIndex]); CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; CRC = (CRC >> 8) ^ CRC32_TABLE[(CRC & 0xFF) ^ *Buffer++]; } } } CRC = CRC ^ 0xFFFFFFFF; *pCRC = CRC; return 0; } #endif // #ifdef BACKWARDS_COMPATIBILITY